KR102027965B1 - Smart window film and thereof - Google Patents

Abstract

The present invention relates to a technology for producing a smart window film using a polymer dispersed liquid crystal (PDLC).
As such, the present invention improves the bonding strength and the ability to remove contaminants by corona or plasma treatment between the layers forming the smart window film, and adds a bonding strength layer between the substrate and the polymer dispersed liquid crystal layer in the smart window film. It is characterized by improving.

Description

Smart window film and its manufacturing method {SMART WINDOW FILM AND THEREOF}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a technology for manufacturing a smart window film using a polymer dispersed liquid crystal (PDLC). In particular, the bonding strength is increased by corona or plasma treatment between layers forming the smart window film. The present invention relates to a smart window film and a method of manufacturing the same, wherein contaminants are removed and a bonding strength layer is added between the substrate and the polymer dispersed liquid crystal layer in the smart window film to improve the bonding force.

The smart window refers to a window manufactured to freely control the transmittance of sunlight. Although the smart window can be classified into various types according to the type of material used, smart windows using PDLC, which are easy to enlarge, are widely used.

PDLC is a major component of smart windows, and tiny liquid crystal molecules in a matrix of polymer material react to externally applied voltages. When a voltage is applied to the smart window, the light is aligned with the direction of the electric field to which the liquid crystal is applied, and thus the light is transmitted to transmit light. However, when no voltage is applied to the smart window, the liquid crystals are arranged irregularly and are perpendicular to the propagation direction of transmitted light, thereby scattering light. Depending on the type of PDLC, light may be transmitted when no voltage is applied.

Such a smart window is mainly applied to the window of the building or a display device to control the transmittance of light. For example, the smart window may be applied to a window of a building or a car to be transparently adjusted to allow maximum sunlight to enter the interior in winter, and to be opaquely adjusted to block sunlight in summer.

Recently, a smart window using a transparent electrode layer containing silver nanowires has been proposed to improve the flexibility of the smart window and to reduce manufacturing costs.

However, the smart window according to the prior art has a problem in that the bonding strength between the substrate and the metal nanowire layer or the bonding force between the metal nanowire layer and the polymer dispersed liquid crystal layer is weak and thus the reliability of the product is lowered.

The first task to be solved by the present invention is to form a smart window film The laminated surface of each layer is corona or plasma treated to improve adhesion and pollutant removal.

The second problem to be solved by the present invention is to improve the bonding strength by adding a bonding strengthening layer between the substrate and the polymer dispersed liquid crystal layer in the smart window film.

The smart window film according to the first embodiment of the present invention for achieving the technical problem comprises a first transparent electrode layer laminated on the first substrate after the laminated surface is laminated with the first substrate corona or plasma treatment; A polymer dispersed liquid crystal layer in which a laminated surface laminated with the first transparent electrode layer is corona or plasma treated and then laminated on the first transparent electrode layer; And a laminated surface laminated with the second substrate is corona or plasma treated, and a laminated surface laminated with the polymer dispersed liquid crystal layer is corona or plasma treated and then laminated between the second substrate and the polymer dispersed liquid crystal layer. It characterized in that it comprises a second transparent electrode layer.

Of the present invention for achieving the above technical problem The smart window film according to the second embodiment includes a first metal nanowire layer laminated on one side of the first substrate after the laminated surface laminated with the first substrate is corona or plasma treated; A first overcoat layer on which the other side and one side of the first metal nanowire layer are laminated; A polymer dispersed liquid crystal layer having one side laminated on the other side of the first overcoating layer after the laminated surface laminated with the first overcoating layer is corona or plasma treated; A second metal nanowire layer on which one side of the second substrate and the second substrate are laminated after the laminated surface laminated with the second substrate is corona or plasma treated; And a second overcoating layer laminated between the other side of the second metal nanowire layer and the other side of the polymer dispersed liquid crystal layer.

Smart window film according to a third embodiment of the present invention for achieving the technical problem is a first transparent electrode layer that is laminated on one side and the first substrate; A first bonding reinforcement layer on which the other side and one side of the first transparent electrode layer are laminated; A polymer dispersed liquid crystal layer in which the other side and one side of the first junction reinforcing layer are laminated; A second transparent electrode layer on which one side of the second substrate is laminated; And a second bonding reinforcement layer laminated between the other side of the second transparent electrode layer and the other side of the polymer dispersed liquid crystal layer.

Smart window film according to a fourth embodiment of the present invention for achieving the technical problem is a first metal nanowire layer laminated on one side and the first substrate; A first overcoat layer on which the other side and one side of the first metal nanowire layer are laminated; A polymer dispersed liquid crystal layer in which the other side and one side of the first overcoating layer are laminated; A second metal nanowire layer on which one side of the second substrate is laminated; A second overcoat layer on which the other side and one side of the second metal nanowire layer are laminated; And a second bonding reinforcement layer laminated between the other side of the second overcoating layer and the other side of the polymer dispersed liquid crystal layer.

Of the present invention for achieving the above technical problem The smart window film according to the fifth embodiment includes a first metal nanowire layer on which a first substrate and one side thereof are laminated; A first bonding reinforcement layer on which the other side and one side of the first metal nanowire layer are laminated; A polymer dispersed liquid crystal layer in which the other side and one side of the first junction reinforcing layer are laminated; A second metal nanowire layer on which one side of the second substrate is laminated; And a second bonding reinforcement layer laminated between the other side of the second metal nanowire layer and the other side of the polymer dispersed liquid crystal layer.

In the manufacturing method of the smart window film according to the sixth embodiment of the present invention for achieving the technical problem, the first transparent electrode layer is laminated on the upper surface of the first substrate, the first substrate and the first transparent electrode layer in the pretreatment process Corona or plasma treatment of the surface of the liver; Stacking a polymer dispersed liquid crystal layer on top of the first transparent electrode layer, and corona or plasma treatment of the laminated surface between the first transparent electrode layer and the polymer dispersed liquid crystal layer in a pretreatment process; Stacking a second transparent electrode layer on a second substrate, and performing corona or plasma treatment on the laminated surface between the second substrate and the second transparent electrode layer in a pretreatment process; And laminating the first substrate portion and the second substrate portion, and performing corona or plasma treatment on the laminated surface between the polymer dispersed liquid crystal layer and the second transparent electrode layer in a pretreatment process.

Of the present invention for achieving the above technical problem In the method of manufacturing a smart window film according to the seventh embodiment, the first transparent electrode layer is laminated on the upper surface of the first substrate, and the corona or plasma treatment of the laminated surface between the first substrate and the first transparent electrode layer in the pretreatment process. step; Laminating one side of the first bonding reinforcement layer to an upper surface of the first transparent electrode layer; Laminating one side of the polymer dispersed liquid crystal layer to an upper surface of the first junction reinforcing layer; Stacking a second transparent electrode layer on an upper surface of the second substrate, and corona or plasma treating the laminated surface between the second substrate and the second transparent electrode layer in a pretreatment process; Laminating one side of the second bonding reinforcement layer to an upper surface of the second transparent electrode layer; And laminating the other side of the second junction reinforcement layer and the other side of the polymer dispersed liquid crystal layer to each other.

The present invention constitutes a smart window film Corona or plasma treatment of the layered surface between each layer has the effect of improving the bonding strength and pollutant removal.

In addition, the present invention has the effect of improving the bonding strength by adding a bonding strengthening layer between the substrate and the polymer dispersed liquid crystal layer in the smart window film.

1 is a cross-sectional view of a smart window film according to a first embodiment of the present invention.
2 is a cross-sectional view of a smart window film according to a second embodiment of the present invention.
3 to 5 are cross-sectional views of a smart window film according to a third embodiment of the present invention.
6 to 8 are cross-sectional views of a smart window film according to a fourth embodiment of the present invention.
9 to 11 are cross-sectional views of a smart window film according to a fifth embodiment of the present invention.
12 (a) to 12 (d) are manufacturing process diagrams for a method of manufacturing a smart window film according to a sixth embodiment of the present invention.
13 (a) to (f) are manufacturing process diagrams for the manufacturing method of the smart window film according to the seventh embodiment of the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

The smart window film according to the first embodiment of the present invention is characterized in that the laminated surface between each layer in the pretreatment process corona treatment or plasma treatment, the electrode layer is a transparent electrode layer or a conductive polymer layer.

FIG. 1 is a cross-sectional view of a smart window film according to a first embodiment of the present invention, which is composed of a first substrate portion 10A and a second substrate portion 10B laminated together.

The first substrate portion 10A has a structure in which the first transparent electrode layer 12A and the polymer dispersed liquid crystal layer 13 are stacked on the first substrate 11A, and the first substrate 11A and the first substrate 11A are stacked. The laminated surface 14A between the transparent electrode layer 12A and the laminated surface 14B between the first transparent electrode layer 12A and the polymer dispersed liquid crystal layer 13 are corona or plasma treated in a pretreatment step. The second substrate portion 10B has a structure in which the second transparent electrode layer 12B is laminated on the second substrate 11B, and the laminated surface 14C between the second substrate 11B and the second transparent electrode layer 12B. ) Is corona or plasma treated. Then, between the polymer dispersed liquid crystal layer 13 of the first substrate portion 10A and the second transparent electrode layer 12B of the second substrate portion 10B. The mating surface 14D is corona or plasma treated in the pretreatment process. Therefore, the bonding surface 14A-14D improves the adhesion between the layers and removes contaminants.

The first substrate 11A and the second substrate 11B may be a polymer material, for example, polyethylene (polyethylene terephthlate) or polycarbonate (PET) or polyethylene napthalene (PEN) or polyurethane (PU) or polyimide (PI) or TAC. (Triacetylcellulose). The first transparent electrode layer 12A and the second transparent electrode layer 12B may be made of indium tin oxide (ITO) or conductive polymer (PEDOT: PSS).

The corona treatment refers to a technique of modifying a surface by exposing a treatment substrate such as a substrate or a thin film to corona discharge. Charged particles are generated by ionizing the air between the discharge electrode layer and the processing roll by using the high frequency generated by the corona treatment machine. The charged particles impinge on the surface of the treatment substrate, thereby increasing the energy of the treatment substrate surface. As a result, the affinity for the coating solution is improved on the surface of the treatment substrate, thereby improving bonding strength and removing contaminants on the surface.

The plasma treatment refers to a state in which a substance is heated by an electric field or a heat source and the like and is divided into particles such as electrons, neutral particles, and ions beyond a gaseous state. At this time, the ionized particles collide with the surface of the treatment substrate to increase the energy of the treatment substrate surface. Plasma treatment differs in terms of using glow discharge as compared to corona treatment, but functions almost the same.

The smart window film according to the second embodiment of the present invention is characterized in that the laminated surface between the layers in the pretreatment process is corona treated or plasma treated, the electrode layer is a metal nanowire layer, and an overcoating layer is used.

FIG. 2 is a cross-sectional view of a smart window film according to a second embodiment of the present invention, which is composed of a first substrate portion 20A and a second substrate portion 20B laminated together.

The first substrate portion 20A has a structure in which a first metal nanowire layer 22A, a first overcoat layer 23A, and a polymer dispersed liquid crystal layer 24 are stacked on a first substrate 21A. The plying surface 24A between the first substrate 21A and the first metal nanowire layer 22A and the plying surface 24B between the first overcoat layer 23A and the polymer dispersed liquid crystal layer 24 are corona in the pretreatment process. Or plasma treatment. The second substrate 20B has a structure in which a second metal nanowire layer 22B and a second overcoating layer 23B are stacked on a second substrate 21B, and the second substrate 21B and the second substrate 21B are stacked on the second substrate 21B. The laminated surface 24C between the metal nanowire layers 22B is corona or plasma treated in the pretreatment step. Then, the laminated surface 24D between the polymer dispersed liquid crystal layer 24 of the first substrate portion 20A and the second overcoating layer 23B of the second substrate portion 20B is corona or plasma treated in the pretreatment process. As a result, the bonding force of the mating surface between the layers is improved and contaminants on the surface are removed.

The material of the first metal nanowire layer 22A and the second metal nanowire layer 22B is not particularly limited, and may include various metals. For example, the first metal nanowire layer 22A and the second metal nanowire layer 22B may include silver nanowires.

The composition of the first over coating layer (23A) and the second over coating layer (23B) is a polyfunctional aliphatic urethane acrylate intermediate (oligomer, oligomer) and two It consists of a combination of the above acrylate monomer (monomer, Monomer). These compositions are UV curable reaction materials, and intermediates and monomers instantly form a polymer, that is, a polymer, by a chemical reaction of a photoinitiator to form a thin film protective layer on a silver nanowire (AgNW) coating. By rapidly curing the intermediate, monomer, etc. with a polymer that is a polymer, it is possible to manufacture the first overcoating layer 23A and the second overcoating layer 23B having excellent conductivity and chemical resistance. The additive material may include an acrylic silane (Silane) to increase the binding force between the antioxidant (Benzotriazole) and the silver nanowires for the oxidation of the silver nanowires.

The smart window film according to the third embodiment of the present invention includes a bonding strengthening layer, and the electrode layer is characterized in that the transparent electrode layer or the conductive polymer layer.

3 to 5 are cross-sectional views of a smart window film according to a third embodiment of the present invention.

First, referring to FIG. 3 as a third embodiment of the present invention, the smart window film includes a first substrate portion 30A and a second substrate portion 30B laminated together.

The first substrate 30A has a structure in which a first transparent electrode layer 32A, a first bonding reinforcement layer 33A, and a polymer dispersed liquid crystal layer 34 are stacked on the first substrate 31A. The second substrate portion 30B has a structure in which a second transparent electrode layer 32B and a second bonding reinforcement layer 33B are stacked on the second substrate 31B.

The first junction reinforcement layer 33A improves the adhesion between the first transparent electrode layer 32A and the polymer dispersed liquid crystal layer 34, and the second junction reinforcement layer 33B is formed of the second transparent electrode layer 32B. By improving the adhesion of the polymer dispersed liquid crystal layer 34, the first junction reinforcement layer 33A and the second junction reinforcement layer 33B may include a primer or a conductive material. The primer may be made of various polymer polymers and resins such as itaconic acid tert-polymer, vinylchloroacetate copolymer or acrylic ester. The type of the primer is largely acrylic, urethane, silicone-based, it is preferable to use a urethane-based primer in consideration of the coating property and adhesion between the material used. In order to improve conductivity in the primer, a graphite material (graphene, CNT, etc.) or a conductive polymer (PEDOT: PSS) may be included.

In FIG. 1, the bonding strengthening layers 33A and 33B are used between the layers, whereas the corona or plasma treated plywood 14A-14D is used in the pretreatment process. The bonding reinforcing layers 33A and 33B are superior to the plywood 14A-14D in terms of strengthening the bonding force between the two layers, but in terms of thickness, the bonding reinforcing layers 33A and 33B are better. Compared with the combined surface 14A-14D is thinner. Therefore, they are preferably used selectively according to the requirements in the smart window film.

Referring to FIG. 4 as an example of the smart window film according to the third embodiment of the present invention, the smart window film includes a first substrate portion 40A and a second substrate portion 40B laminated together.

The first substrate portion 40A has a structure in which a first transparent electrode layer 42A, a first bonding reinforcement layer 43A, and a polymer dispersed liquid crystal layer 44 are stacked on the first substrate 41A. The second substrate portion 40B has a structure in which a second transparent electrode layer 42B and a second bonding reinforcement layer 43B are stacked on the second substrate 41B.

When comparing FIG. 4 with FIG. 3, the mating surface 45A between the first substrate 41A and the first transparent electrode layer 42A is corona or plasma treated in the pretreatment process as described above, and the second substrate 41B and the first substrate 41A are formed. The difference is that the mating surface 45B between the two transparent electrode layers 42B is corona or plasma treated in the pretreatment process as described above.

Referring to FIG. 5 as an example of the smart window film according to the third embodiment of the present invention, the smart window film includes a first substrate portion 50A and a second substrate portion 50B laminated together.

The first substrate portion 50A includes a first bonding reinforcing layer 52A, a metal nanowire layer 53, a second bonding reinforcing layer 52B, and a polymer dispersed liquid crystal layer 54 to the first substrate 51A. It has a laminated structure. The second substrate 50B has a structure in which a third junction reinforcement layer 52C, a transparent electrode layer 55 and a fourth junction reinforcement layer 52D are stacked on the second substrate 51B.

5, the first junction reinforcing layer 52A and the metal nanowire layer 53 are stacked instead of the first transparent electrode layer 42A, and the second substrate 51B and the transparent electrode layer 55 are separated from each other. The difference is that the third bonding reinforcement layer 52C is laminated therebetween.

The smart window film according to the fourth embodiment of the present invention includes a bonding reinforcement layer and an overcoating layer, and the electrode layer is a metal nanowire layer.

6 to 8 are cross-sectional views of a smart window film according to a fourth embodiment of the present invention.

First, referring to FIG. 6 as an example of the smart window film according to the fourth embodiment of the present invention, the smart window film includes a first substrate portion 60A and a second substrate portion 60B laminated together.

The first substrate portion 60A includes a first metal nanowire layer 62A, a first overcoating layer 63A, a first bonding reinforcement layer 64A, and a polymer dispersed liquid crystal layer 65A on the first substrate 61A. ) Has a laminated structure. The second substrate part 60B has a structure in which a second metal nanowire layer 62B, a second overcoating layer 63B, and a second bonding reinforcement layer 64B are stacked on the second substrate 61B.

The material of the first metal nanowire layer 62A and the second metal nanowire layer 62B is not particularly limited, and may include various metals. For example, the first metal nanowire layer 62A and the second metal nanowire layer 62B may include silver nanowires.

The first bonding reinforcement layer 64A improves the surface roughness without lowering the conductivity of the first metal nanowire layer 62A and the first overcoating layer 63A and adheres to the polymer dispersed liquid crystal layer 65. In addition, the second bonding reinforcement layer 64B improves the surface roughness without lowering the conductive properties of the second metal nanowire layer 62B and the second overcoating layer 63B. In order to improve adhesion to the liquid crystal layer 65, they may include a primer or a conductive material.

As described above, the primer may be made of various polymer polymers and resins such as itaconic acid tert-polymer, vinylchloroacetate copolymer or acrylic ester. The type of the primer is largely acrylic, urethane, silicone-based, it is preferable to use a urethane-based primer in consideration of the coating property and adhesion between the material used. In order to improve conductivity in the primer, a graphite material (graphene, CNT, etc.) or a conductive polymer (PEDOT: PSS) may be included.

Referring to FIG. 7 as an example of the smart window film according to the fourth embodiment of the present invention, the smart window film includes a first substrate portion 70A and a second substrate portion 70B laminated together.

The first substrate 70A includes a first metal nanowire layer 72A, a first overcoating layer 73A, a first bonding reinforcement layer 74A, and a polymer dispersed liquid crystal layer 75A on the first substrate 71A. ) Has a laminated structure. The second substrate 70B has a structure in which a second metal nanowire layer 72B, a second overcoating layer 73B, and a second bonding reinforcement layer 74B are stacked on the second substrate 71B.

When FIG. 7 is compared with FIG. 6, the laminated surface 76A between the first substrate 71A and the first metal nanowire layer 72A is corona or plasma treated in a pretreatment process, and similarly, the second substrate 71B and the first substrate 71A are formed. The difference is that the cladding surface 76B between the two metal nanowire layers 72B is corona or plasma treated in the pretreatment step as described above.

Referring to FIG. 8 as an example of the smart window film according to the fourth embodiment of the present invention, the smart window film includes a first substrate portion 80A and a second substrate portion 80B laminated together.

The first substrate portion 80A includes a first bonding reinforcement layer 82A, a first metal nanowire layer 83A, a first overcoating layer 84A, and a second bonding reinforcement layer 82B on the first substrate 81A. ) And the polymer dispersed liquid crystal layer 85 are laminated. The second substrate portion 80B includes a third bonding reinforcement layer 82C, a second metal nanowire layer 83B, a second overcoating layer 84B, and a fourth bonding reinforcement layer 82D on the second substrate 81B. ) Has a laminated structure.

When FIG. 8 is compared with FIG. 7, a first bonding reinforcement layer 82A is formed between the first substrate 81A and the first metal nanowire layer 83A, and the second substrate 81B and the second metal nanowire layer are formed. The difference is that the third bonding reinforcement layer 82C is formed between the 83Bs.

The smart window film according to the fifth embodiment of the present invention includes a bonding strengthening layer, and the electrode layer is characterized in that the metal nanowire layer.

9 to 11 are cross-sectional views of a smart window film according to a fifth embodiment of the present invention.

First, referring to FIG. 9 as a fifth embodiment of the present invention, the smart window film includes a first substrate portion 90A and a second substrate portion 90B laminated together.

The first substrate 90A has a structure in which a first metal nanowire layer 92A, a first bonding reinforcement layer 93A, and a polymer dispersed liquid crystal layer 94 are stacked on a first substrate 91A. The second substrate portion 90B has a structure in which a second metal nanowire layer 92B and a second bonding reinforcement layer 93B are stacked on a second substrate 91B.

The material of the first metal nanowire layer 92A and the second metal nanowire layer 92B is not particularly limited, and may include various metals. For example, the first metal nanowire layer 92A and the second metal nanowire layer 92B may include silver nanowires.

When FIG. 9 is compared with FIG. 3, the first transparent electrode layer 32A is replaced with the first metal nanowire layer 92A, and the second transparent electrode layer 32B is replaced with the second metal nanowire layer 92B. Is the difference.

Referring to FIG. 10 as a fifth embodiment of the present invention, the smart window film includes a first substrate portion 100A and a second substrate portion 100B laminated together.

The first substrate portion 100A has a structure in which a first metal nanowire layer 102A, a first bonding reinforcement layer 103A, and a polymer dispersed liquid crystal layer 104 are stacked on a first substrate 101A. The second substrate portion 100B has a structure in which a second metal nanowire layer 102B and a second bonding reinforcement layer 103B are stacked on the second substrate 101B.

When FIG. 10 is compared with FIG. 4, the first transparent electrode layer 42A is replaced with the first metal nanowire layer 102A, and the second transparent electrode layer 42B is replaced with the second metal nanowire layer 102B. Is the difference.

Referring to FIG. 11 as a fifth embodiment of the present invention, the smart window film includes a first substrate portion 110A and a second substrate portion 110B laminated together.

The first substrate 110A includes a first bonding reinforcement layer 112A, a first metal nanowire layer 113A, a second bonding reinforcement layer 112B, and a polymer dispersed liquid crystal layer (111A) on the first substrate 111A. 114 has a laminated structure. The second substrate part 110B has a structure in which a third junction reinforcement layer 112C, a second metal nanowire layer 113B, and a fourth junction reinforcement layer 112D are stacked on the second substrate 111B.

11, the transparent electrode layer 55 is replaced with the second metal nanowire layer 113B.

On the other hand, Figure 12 shows a manufacturing process for a smart window film manufacturing method according to the present invention, with reference to this description of the manufacturing method of the window film according to the present invention.

First, as shown in FIG. 12A, the first transparent electrode layer 12A is laminated on the upper surface of the first substrate 11A, but the sum of the first substrate 11A and the first transparent electrode layer 12A during the pretreatment process. The ground 14A is corona or plasma treated.

Thereafter, as shown in FIG. 12B, the polymer dispersed liquid crystal layer 13 is laminated on the first transparent electrode layer 12A, but in the pretreatment process, the first transparent electrode layer 12A and the polymer dispersed liquid crystal layer ( 13) The surface 14B of the liver is corona or plasma treated. This completes the manufacturing process of the first substrate portion 10A.

Subsequently, as shown in FIG. 12C, the second transparent electrode layer 12B is laminated on the second substrate 11B, and the laminated surface 14C between the second substrate 11B and the second transparent electrode layer 12B is pretreated. ) Is corona or plasma treated. Thereby, the manufacturing process of the 2nd board | substrate part 10B is completed.

Thereafter, as illustrated in FIG. 12D, the first substrate portion 10A and the second substrate portion 10B are laminated, and the polymer dispersed liquid crystal layer 13 and the second transparent electrode layer 12B during the pretreatment process. The surface of the liver 14D is corona or plasma treated.

Corona or plasma treatment as described above improves the affinity for the coating solution on the surface of the treatment substrate to improve the bonding strength and remove contaminants on the surface.

On the other hand, Figure 13 shows a manufacturing process for another manufacturing method of the smart window film according to the present invention, with reference to this another manufacturing method of the window film according to the present invention will be described.

First, as shown in FIG. 13A, the first transparent electrode layer 42A is laminated on the upper surface of the first substrate 41A, but the sum of the first substrate 41A and the first transparent electrode layer 42A during the pretreatment process. The ground 45A is corona or plasma treated.

Thereafter, as shown in FIG. 13B, the first bonding reinforcement layer 43A is laminated on the upper surface of the first transparent electrode layer 42A.

Thereafter, as shown in FIG. 13C, the polymer dispersed liquid crystal layer 44 is laminated on the upper surface of the first bonding reinforcement layer 43A. This completes the manufacturing process of the first substrate portion 40A.

Subsequently, as shown in FIG. 13D, the second transparent electrode layer 42B is laminated on the upper surface of the second substrate 41B, but the sum of the second substrate 41B and the second transparent electrode layer 42B during the pretreatment process. The ground 45B is corona or plasma treated.

Thereafter, as shown in FIG. 13E, the second bonding reinforcement layer 43B is laminated on the upper surface of the second transparent electrode layer 42B. Thereby, the manufacturing process of the 2nd board | substrate part 40B is completed.

Thereafter, as illustrated in FIG. 13F, the first substrate portion 40A and the second substrate portion 40B are laminated. Thereby, the manufacturing process of a smart window film is completed.

The bonding strength between the first substrate 41A and the polymer dispersed liquid crystal layer 44 is enhanced by the first bonding reinforcement layer 43A, and the second substrate 41B is strengthened by the second bonding reinforcement layer 43B. And the bonding force between the polymer dispersed liquid crystal layer 44 is enhanced.

In another embodiment, the first bonding reinforcing layer 43A and the second bonding reinforcing layer 43B may be replaced with an overcoating layer.

Then, as described above, the laminated surface 45A between the first substrate 41A and the first transparent electrode layer 42A is corona or plasma treated, and the laminated surface between the second substrate 41B and the second transparent electrode layer 42B ( By corona or plasma treatment of 45B), the bonding force of the mating surface between the respective layers is improved and the surface contaminants are removed.

In the above description, the lamination may be implemented by general techniques. For example, UV curing techniques can be used. In this case, the two adhesive surfaces are secured while undergoing a UV curing process, thereby allowing them to adhere.

Although the preferred embodiment of the present invention has been described in detail above, the scope of the present invention is not limited thereto, and may be implemented in various embodiments based on the basic concept of the present invention defined in the following claims. Such embodiments are also within the scope of the present invention.

10A: 1st board part 10B: 2nd board part
11A: 1st board 11B: 2nd board
12A: first transparent electrode layer 12B: second transparent electrode layer
13: polymer dispersed liquid crystal layer

Claims (23)

A first transparent electrode layer laminated on the first substrate after the laminated surface laminated with the first substrate is corona or plasma treated;
A polymer dispersed liquid crystal layer in which a laminated surface laminated with the first transparent electrode layer is corona or plasma treated and then laminated on the first transparent electrode layer; And
A laminated surface laminated with a second substrate is corona or plasma treated, and a laminated surface laminated with the polymer dispersed liquid crystal layer is corona or plasma treated and then laminated between the second substrate and the polymer dispersed liquid crystal layer. Including a transparent electrode layer,
The first substrate and the second substrate
Poly (Ethylene Terephthlate), Polycarbonate (PC), Polyethylene Napthalene (PEN), Polyurethane (PU), Polyimide (PI) and Triacetylcellulose (TAC)
The first transparent electrode layer and the second transparent electrode layer
Smart window film, characterized in that made of any one material of ITO (Indium Tin Oxide) and conductive polymer.
delete delete A first metal nanowire layer laminated on one side of the first substrate after the laminated surface laminated with the first substrate is corona or plasma treated;
A first overcoat layer on which the other side and one side of the first metal nanowire layer are laminated;
A polymer dispersed liquid crystal layer having one side laminated on the other side of the first overcoating layer after the laminated surface laminated with the first overcoating layer is corona or plasma treated;
A second metal nanowire layer on which one side of the second substrate and the second substrate are laminated after the laminated surface laminated with the second substrate is corona or plasma treated; And
A second overcoating layer laminated between the other side of the second metal nanowire layer and the other side of the polymer dispersed liquid crystal layer,
The first metal nanowire layer and the second metal nanowire layer
Includes silver nanowires,
The composition of the first overcoat layer and the second overcoat layer
Smart window film comprising a combination of a polyfunctional aliphatic urethane acrylate (Aliphatic Urethane Acrylate) intermediate and two or more acrylate-based monomers.
delete delete A first transparent electrode layer on which one side of the first substrate is laminated;
A first bonding reinforcement layer on which the other side and one side of the first transparent electrode layer are laminated;
A polymer dispersed liquid crystal layer in which the other side and one side of the first junction reinforcing layer are laminated;
A second transparent electrode layer on which one side of the second substrate is laminated; And
A second bonding reinforcement layer laminated between the other side of the second transparent electrode layer and the other side of the polymer dispersed liquid crystal layer,
The laminated surface between the first substrate and the first transparent electrode layer is corona or plasma treated,
The laminated surface between the second substrate and the second transparent electrode layer is corona or plasma treated,
The first junction reinforcement layer and the second junction reinforcement layer
Made of primer or conductive material,
The primer is
It consists of polymer polymers and resins such as itaconic acid tert-polymer, vinylchloroacetate copolymer or acrylic ester,
A smart window film comprising a bonding reinforcement layer and a metal nanowire layer laminated to each other instead of the first transparent electrode layer, and a bonding reinforcement layer between the second substrate and the second transparent electrode layer.
delete delete delete delete A first metal nanowire layer on which one side of the first substrate is laminated;
A first overcoat layer on which the other side and one side of the first metal nanowire layer are laminated;
A first bonding reinforcement layer on which the other side and one side of the first overcoating layer are laminated;
A polymer dispersed liquid crystal layer in which the other side and one side of the first junction reinforcing layer are laminated;
A second metal nanowire layer on which one side of the second substrate is laminated;
A second overcoat layer on which the other side and one side of the second metal nanowire layer are laminated; And
A second bonding reinforcement layer laminated between the other side of the second overcoating layer and the other side of the polymer dispersed liquid crystal layer,
The first metal nanowire layer and the second metal nanowire layer
Includes silver nanowires,
The laminated surface between the first substrate and the first metal nanowire layer is corona or plasma treated, and the laminated surface between the second substrate and the second metal nanowire layer is corona or plasma treated,
A bonding strengthening layer is further provided between the first substrate and the first metal nanowire layer, and a bonding strengthening layer is further provided between the second substrate and the second metal nanowire layer. Smart window film.
delete delete delete A first metal nanowire layer on which one side of the first substrate is laminated;
A first bonding reinforcement layer on which the other side and one side of the first metal nanowire layer are laminated;
A polymer dispersed liquid crystal layer in which the other side and one side of the first junction reinforcing layer are laminated;
A second metal nanowire layer on which one side of the second substrate is laminated; And
A second bonding reinforcement layer laminated between the other side of the second metal nanowire layer and the other side of the polymer dispersed liquid crystal layer,
The laminated surface between the first substrate and the first metal nanowire layer is corona or plasma treated, and the laminated surface between the second substrate and the second metal nanowire layer is corona or plasma treated,
A bonding strengthening layer is further provided between the first substrate and the first metal nanowire layer, and a bonding strengthening layer is further provided between the second substrate and the second metal nanowire layer. Smart window film. delete delete delete delete delete delete delete

Images